Yongqing Zhu scite author profile

Yongqing Zhu

4Publications

248Citation Statements Received

167Citation Statements Given

How they've been cited

339

238

How they cite others

155

Affiliations

Shanghai Municipal Center For Disease Control Prevention, Fudan University, Data Storage Institute

Publications

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A bandwidth guaranteed polling MAC protocol for Ethernet passive optical networks

Zhu

Cheng

118

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Abstract-While the backbone networks have experienced substantial changes in the last decade; the access networks have not changed much. Recently, passive optical networks (PONs) seem to be ready for commercial deployment in access networks due to the maturity of a number of enabling technologies. long distance and reduced maintenance. Among PON technologies, the Ethernet PON (EPON) presently being standardized by the IEEE 802.3ah Ethernet in the First Miles (EFM) Task Force is most attractive because of its high speed, low cost, familiarity, interoperability and low overhead. In this paper, we propose a novel Bandwidth Guarantee Polling (BGP) scheme that will allow the upstream bandwidth to be shared based on the service level agreement (SLA) between each subscriber and the operator. It is able to provide bandwidth guarantee for premium subscribers according to the SLAs while providing best-effort service to other subscribers. The analytical and simulation results prove that the proposed scheme does best in what it is designed to do compared to another well-known scheme that has not considered providing differentiated services. With business customers preferring premium services with guaranteed bandwidth and residential users preferring low-cost best effort services, our scheme could benefit both groups of subscribers as well as the operators.

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Sequence polymorphisms in wild, weedy, and cultivated rice suggest seed‐shattering locus sh4 played a minor role in Asian rice domestication

Zhu

Ellstrand

2012

Ecology and Evolution

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The predominant view regarding Asian rice domestication is that the initial origin of nonshattering involved a single gene of large effect, specifically, the sh4 locus via the evolutionary replacement of a dominant allele for shattering with a recessive allele for reduced shattering. Data have accumulated to challenge this hypothesis. Specifically, a few studies have reported occasional seed-shattering plants from populations of the wild progenitor of cultivated rice (Oryza rufipogon complex) being homozygous for the putative “nonshattering” sh4 alleles. We tested the sh4 hypothesis for the domestication of cultivated rice by obtaining genotypes and phenotypes for a diverse set of samples of wild, weedy, and cultivated rice accessions. The cultivars were fixed for the putative “nonshattering” allele and nonshattering phenotype, but wild rice accessions are highly polymorphic for the putative “nonshattering” allele (frequency ∼26%) with shattering phenotype. All weedy rice accessions are the “nonshattering” genotype at the sh4 locus but with shattering phenotype. These data challenge the widely accepted hypothesis that a single nucleotide mutation (“G”/“T”) of the sh4 locus is the major driving force for rice domestication. Instead, we hypothesize that unidentified shattering loci are responsible for the initial domestication of cultivated rice through reduced seed shattering.

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Genome-wide identification, characterization and expression analysis of the auxin response factor gene family in Vitis vinifera

Wan

Zhu

et al. 2014

Plant Cell Rep

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Our study has identified and analyzed the VvARF gene family that may be associated with the development of grape berry and other tissues. Auxin response factors (ARFs) are transcription factors that regulate the expression of auxin responsive genes through specific binding to auxin response elements (AuxREs). The ARF genes are represented by a large multigene family in plants. Until now, many ARF families have been characterized based on genome resources. However, there is no specialized research about ARF genes in grapevine (Vitis vinifera). In this study, a comprehensive bioinformatics analysis of the grapevine ARF gene family is presented, including chromosomal locations, phylogenetic relationships, gene structures, conserved domains and expression profiles. Nineteen VvARF genes were identified and categorized into four groups (Classes 1, 2, 3 and 4). Most of VvARF proteins contain B3, AUX_RESP and AUX_IAA domains. The VvARF genes were widely expressed in a range of grape tissues, and fruit had higher transcript levels for most VvARFs detected in the EST sources. Furthermore, analysis of expression profiles indicated some VvARF genes may play important roles in the regulation of grape berry maturation processes. This study which provided basic genomic information for the grapevine ARF gene family will be useful in selecting candidate genes related to tissue development in grapevine and pave the way for further functional verification of these VvARF genes.

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A Blockchain-Based Storage System for Data Analytics in the Internet of Things

Aung

Zhu

et al. 2017

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Yongqing Zhu

A bandwidth guaranteed polling MAC protocol for Ethernet passive optical networks

Sequence polymorphisms in wild, weedy, and cultivated rice suggest seed‐shattering locus sh4 played a minor role in Asian rice domestication

Genome-wide identification, characterization and expression analysis of the auxin response factor gene family in Vitis vinifera

A Blockchain-Based Storage System for Data Analytics in the Internet of Things

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